2004-08-10 03:20:52 +02:00
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from __future__ import division
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import operator, re, types
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source = None
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display_run = 0
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2005-01-18 23:55:35 +01:00
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global globalTicks
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globalTicks = None
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2004-08-10 03:20:52 +02:00
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def issequence(t):
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return isinstance(t, types.TupleType) or isinstance(t, types.ListType)
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def total(f):
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if isinstance(f, FormulaStat):
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v = f.value
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else:
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v = f
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f = FormulaStat()
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if issequence(v):
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f.value = reduce(operator.add, v)
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else:
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f.value = v
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return f
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def unaryop(op, f):
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if isinstance(f, FormulaStat):
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v = f.value
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else:
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v = f
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if issequence(v):
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return map(op, v)
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else:
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return op(v)
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def zerodiv(lv, rv):
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if rv == 0.0:
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return 0.0
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else:
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return operator.truediv(lv, rv)
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def wrapop(op, lv, rv):
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if isinstance(lv, str):
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return lv
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if isinstance(rv, str):
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return rv
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return op(lv, rv)
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2004-11-18 22:23:29 +01:00
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def same(lrun, rrun):
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for lx,rx in zip(lrun.keys(),rrun.keys()):
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if lx != rx:
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print 'lx != rx'
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print lx, rx
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print lrun.keys()
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print rrun.keys()
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2004-08-10 03:20:52 +02:00
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return False
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2004-11-18 22:23:29 +01:00
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for ly,ry in zip(lrun[lx].keys(),rrun[rx].keys()):
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if ly != ry:
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print 'ly != ry'
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print ly, ry
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print lrun[lx].keys()
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print rrun[rx].keys()
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2004-08-10 03:20:52 +02:00
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return False
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return True
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def binaryop(op, lf, rf):
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result = {}
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if isinstance(lf, FormulaStat) and isinstance(rf, FormulaStat):
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lv = lf.value
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rv = rf.value
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2004-11-18 22:23:29 +01:00
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theruns = []
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for r in lv.keys():
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if rv.has_key(r):
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if same(lv[r], rv[r]):
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theruns.append(r)
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else:
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raise AttributeError
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2004-08-10 03:20:52 +02:00
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2004-11-18 22:23:29 +01:00
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for run in theruns:
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2004-08-10 03:20:52 +02:00
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result[run] = {}
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for x in lv[run].keys():
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result[run][x] = {}
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for y in lv[run][x].keys():
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result[run][x][y] = wrapop(op, lv[run][x][y],
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rv[run][x][y])
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elif isinstance(lf, FormulaStat):
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lv = lf.value
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for run in lv.keys():
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result[run] = {}
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for x in lv[run].keys():
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result[run][x] = {}
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for y in lv[run][x].keys():
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result[run][x][y] = wrapop(op, lv[run][x][y], rf)
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elif isinstance(rf, FormulaStat):
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rv = rf.value
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for run in rv.keys():
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result[run] = {}
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for x in rv[run].keys():
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result[run][x] = {}
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for y in rv[run][x].keys():
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result[run][x][y] = wrapop(op, lf, rv[run][x][y])
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return result
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def sums(x, y):
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if issequence(x):
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return map(lambda x, y: x + y, x, y)
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else:
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return x + y
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def alltrue(list):
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return reduce(lambda x, y: x and y, list)
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def allfalse(list):
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return not reduce(lambda x, y: x or y, list)
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def enumerate(list):
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return map(None, range(len(list)), list)
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def cmp(a, b):
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if a < b:
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return -1
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elif a == b:
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return 0
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else:
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return 1
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class Statistic(object):
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2005-01-18 23:55:35 +01:00
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2004-08-10 03:20:52 +02:00
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def __init__(self, data):
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self.__dict__.update(data.__dict__)
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if not self.__dict__.has_key('value'):
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self.__dict__['value'] = None
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if not self.__dict__.has_key('bins'):
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self.__dict__['bins'] = None
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if not self.__dict__.has_key('ticks'):
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self.__dict__['ticks'] = None
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2005-01-18 23:55:35 +01:00
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if 'vc' not in self.__dict__:
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self.vc = {}
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2004-08-10 03:20:52 +02:00
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def __getattribute__(self, attr):
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2005-01-18 23:55:35 +01:00
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if attr == 'ticks':
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if self.__dict__['ticks'] != globalTicks:
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self.__dict__['value'] = None
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self.__dict__['ticks'] = globalTicks
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return self.__dict__['ticks']
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2004-08-10 03:20:52 +02:00
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if attr == 'value':
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2005-01-18 23:55:35 +01:00
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if self.__dict__['ticks'] != globalTicks:
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if self.__dict__['ticks'] != None and \
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len(self.__dict__['ticks']) == 1:
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self.vc[self.__dict__['ticks'][0]] = self.__dict__['value']
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self.__dict__['ticks'] = globalTicks
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if len(globalTicks) == 1 and self.vc.has_key(globalTicks[0]):
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self.__dict__['value'] = self.vc[globalTicks[0]]
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else:
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self.__dict__['value'] = None
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2004-08-10 03:20:52 +02:00
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if self.__dict__['value'] == None:
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self.__dict__['value'] = self.getValue()
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return self.__dict__['value']
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else:
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return super(Statistic, self).__getattribute__(attr)
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def __setattr__(self, attr, value):
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if attr == 'bins' or attr == 'ticks':
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if attr == 'bins':
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if value is not None:
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2004-11-15 07:36:27 +01:00
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value = source.getBin(value)
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2005-01-18 23:55:35 +01:00
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#elif attr == 'ticks' and type(value) is str:
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# value = [ int(x) for x in value.split() ]
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2004-08-10 03:20:52 +02:00
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self.__dict__[attr] = value
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self.__dict__['value'] = None
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2005-01-18 23:55:35 +01:00
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self.vc = {}
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2004-08-10 03:20:52 +02:00
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else:
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super(Statistic, self).__setattr__(attr, value)
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def getValue(self):
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raise AttributeError, 'getValue() must be defined'
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def zero(self):
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return False
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def __ne__(self, other):
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return not (self == other)
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def __str__(self):
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return '%f' % (float(self))
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class FormulaStat(object):
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def __add__(self, other):
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f = FormulaStat()
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f.value = binaryop(operator.add, self, other)
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return f
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def __sub__(self, other):
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f = FormulaStat()
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f.value = binaryop(operator.sub, self, other)
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return f
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def __mul__(self, other):
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f = FormulaStat()
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f.value = binaryop(operator.mul, self, other)
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return f
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def __truediv__(self, other):
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f = FormulaStat()
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f.value = binaryop(zerodiv, self, other)
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return f
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def __mod__(self, other):
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f = FormulaStat()
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f.value = binaryop(operator.mod, self, other)
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return f
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def __radd__(self, other):
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f = FormulaStat()
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f.value = binaryop(operator.add, other, self)
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return f
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def __rsub__(self, other):
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f = FormulaStat()
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f.value = binaryop(operator.sub, other, self)
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return f
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def __rmul__(self, other):
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f = FormulaStat()
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f.value = binaryop(operator.mul, other, self)
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return f
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def __rtruediv__(self, other):
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f = FormulaStat()
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f.value = binaryop(zerodiv, other, self)
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return f
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def __rmod__(self, other):
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f = FormulaStat()
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f.value = binaryop(operator.mod, other, self)
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return f
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def __neg__(self):
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f = FormulaStat()
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f.value = unaryop(operator.neg, self)
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return f
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def __getitem__(self, idx):
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f = FormulaStat()
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f.value = {}
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for key in self.value.keys():
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f.value[key] = {}
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f.value[key][0] = {}
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f.value[key][0][0] = self.value[key][idx][0]
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return f
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def __float__(self):
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if isinstance(self.value, FormulaStat):
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return float(self.value)
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if not self.value.has_key(display_run):
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return (1e300*1e300)
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if len(self.value[display_run]) == 1:
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return self.value[display_run][0][0]
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else:
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#print self.value[display_run]
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return self.value[display_run][4][0]
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#raise ValueError
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def display(self):
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import display
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d = display.VectorDisplay()
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d.flags = 0
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d.precision = 1
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d.name = 'formula'
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d.desc = 'formula'
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val = self.value[display_run]
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d.value = [ val[x][0] for x in val.keys() ]
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d.display()
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class Scalar(Statistic,FormulaStat):
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def getValue(self):
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2005-01-14 05:59:39 +01:00
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return source.data(self, self.bins, self.ticks)
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2004-08-10 03:20:52 +02:00
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def display(self):
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import display
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p = display.Print()
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p.name = self.name
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p.desc = self.desc
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p.value = float(self)
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p.flags = self.flags
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p.precision = self.precision
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if display.all or (self.flags & flags.printable):
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p.display()
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def comparable(self, other):
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return self.name == other.name
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def __eq__(self, other):
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return self.value == other.value
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def __isub__(self, other):
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self.value -= other.value
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return self
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def __iadd__(self, other):
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self.value += other.value
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return self
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def __itruediv__(self, other):
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if not other:
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return self
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self.value /= other
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return self
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class Vector(Statistic,FormulaStat):
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def getValue(self):
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2005-01-20 00:40:02 +01:00
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return source.data(self, self.bins, self.ticks);
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2004-08-10 03:20:52 +02:00
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def display(self):
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import display
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if not display.all and not (self.flags & flags.printable):
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return
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d = display.VectorDisplay()
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d.__dict__.update(self.__dict__)
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d.display()
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def comparable(self, other):
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return self.name == other.name and \
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len(self.value) == len(other.value)
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def __eq__(self, other):
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if issequence(self.value) != issequence(other.value):
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return false
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if issequence(self.value):
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if len(self.value) != len(other.value):
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return False
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else:
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for v1,v2 in zip(self.value, other.value):
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if v1 != v2:
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return False
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return True
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else:
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return self.value == other.value
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def __isub__(self, other):
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self.value = binaryop(operator.sub, self.value, other.value)
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return self
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def __iadd__(self, other):
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self.value = binaryop(operator.add, self.value, other.value)
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return self
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def __itruediv__(self, other):
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if not other:
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return self
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if issequence(self.value):
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for i in xrange(len(self.value)):
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self.value[i] /= other
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else:
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self.value /= other
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return self
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class Formula(Vector):
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def getValue(self):
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formula = re.sub(':', '__', self.formula)
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x = eval(formula, source.stattop)
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return x.value
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def comparable(self, other):
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return self.name == other.name and \
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compare(self.dist, other.dist)
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def __eq__(self, other):
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return self.value == other.value
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def __isub__(self, other):
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return self
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def __iadd__(self, other):
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return self
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def __itruediv__(self, other):
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if not other:
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return self
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return self
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class SimpleDist(object):
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def __init__(self, sums, squares, samples):
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self.sums = sums
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self.squares = squares
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self.samples = samples
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def getValue(self):
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return 0.0
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def display(self, name, desc, flags, precision):
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import display
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p = display.Print()
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p.flags = flags
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p.precision = precision
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if self.samples > 0:
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p.name = name + ".mean"
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p.value = self.sums / self.samples
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p.display()
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p.name = name + ".stdev"
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if self.samples > 1:
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var = (self.samples * self.squares - self.sums ** 2) \
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/ (self.samples * (self.samples - 1))
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if var >= 0:
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p.value = math.sqrt(var)
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else:
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p.value = 'NaN'
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else:
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p.value = 0.0
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p.display()
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p.name = name + ".samples"
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p.value = self.samples
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p.display()
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def comparable(self, other):
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return True
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def __eq__(self, other):
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return self.sums == other.sums and self.squares == other.squares and \
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self.samples == other.samples
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def __isub__(self, other):
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self.sums -= other.sums
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self.squares -= other.squares
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self.samples -= other.samples
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return self
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def __iadd__(self, other):
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self.sums += other.sums
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self.squares += other.squares
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self.samples += other.samples
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return self
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def __itruediv__(self, other):
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if not other:
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return self
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self.sums /= other
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self.squares /= other
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self.samples /= other
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return self
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class FullDist(SimpleDist):
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def __init__(self, sums, squares, samples, minval, maxval,
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under, vec, over, min, max, bsize, size):
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self.sums = sums
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self.squares = squares
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self.samples = samples
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self.minval = minval
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self.maxval = maxval
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self.under = under
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self.vec = vec
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self.over = over
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self.min = min
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self.max = max
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self.bsize = bsize
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self.size = size
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def getValue(self):
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return 0.0
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def display(self, name, desc, flags, precision):
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import display
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p = display.Print()
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p.flags = flags
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p.precision = precision
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p.name = name + '.min_val'
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p.value = self.minval
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p.display()
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p.name = name + '.max_val'
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p.value = self.maxval
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p.display()
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p.name = name + '.underflow'
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p.value = self.under
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p.display()
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i = self.min
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for val in self.vec[:-1]:
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p.name = name + '[%d:%d]' % (i, i + self.bsize - 1)
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p.value = val
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p.display()
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i += self.bsize
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p.name = name + '[%d:%d]' % (i, self.max)
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p.value = self.vec[-1]
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p.display()
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p.name = name + '.overflow'
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p.value = self.over
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p.display()
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SimpleDist.display(self, name, desc, flags, precision)
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def comparable(self, other):
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return self.min == other.min and self.max == other.max and \
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self.bsize == other.bsize and self.size == other.size
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def __eq__(self, other):
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return self.sums == other.sums and self.squares == other.squares and \
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self.samples == other.samples
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def __isub__(self, other):
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self.sums -= other.sums
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self.squares -= other.squares
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self.samples -= other.samples
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if other.samples:
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self.minval = min(self.minval, other.minval)
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self.maxval = max(self.maxval, other.maxval)
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self.under -= under
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self.vec = map(lambda x,y: x - y, self.vec, other.vec)
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self.over -= over
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return self
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def __iadd__(self, other):
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if not self.samples and other.samples:
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self = other
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return self
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self.sums += other.sums
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self.squares += other.squares
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self.samples += other.samples
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if other.samples:
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self.minval = min(self.minval, other.minval)
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self.maxval = max(self.maxval, other.maxval)
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self.under += other.under
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self.vec = map(lambda x,y: x + y, self.vec, other.vec)
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self.over += other.over
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return self
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def __itruediv__(self, other):
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if not other:
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return self
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self.sums /= other
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self.squares /= other
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self.samples /= other
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if self.samples:
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self.under /= other
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for i in xrange(len(self.vec)):
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self.vec[i] /= other
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self.over /= other
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return self
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class Dist(Statistic):
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def getValue(self):
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return 0.0
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def display(self):
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import display
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if not display.all and not (self.flags & flags.printable):
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return
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self.dist.display(self.name, self.desc, self.flags, self.precision)
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def comparable(self, other):
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return self.name == other.name and \
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self.dist.compareable(other.dist)
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def __eq__(self, other):
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return self.dist == other.dist
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def __isub__(self, other):
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self.dist -= other.dist
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return self
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def __iadd__(self, other):
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self.dist += other.dist
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return self
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def __itruediv__(self, other):
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if not other:
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return self
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self.dist /= other
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return self
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class VectorDist(Statistic):
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def getValue(self):
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return 0.0
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def display(self):
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import display
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if not display.all and not (self.flags & flags.printable):
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return
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if isinstance(self.dist, SimpleDist):
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return
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for dist,sn,sd,i in map(None, self.dist, self.subnames, self.subdescs,
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range(len(self.dist))):
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if len(sn) > 0:
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name = '%s.%s' % (self.name, sn)
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else:
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name = '%s[%d]' % (self.name, i)
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if len(sd) > 0:
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desc = sd
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else:
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desc = self.desc
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dist.display(name, desc, self.flags, self.precision)
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if (self.flags & flags.total) or 1:
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if isinstance(self.dist[0], SimpleDist):
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disttotal = SimpleDist( \
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reduce(sums, [d.sums for d in self.dist]),
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reduce(sums, [d.squares for d in self.dist]),
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reduce(sums, [d.samples for d in self.dist]))
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else:
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disttotal = FullDist( \
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reduce(sums, [d.sums for d in self.dist]),
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reduce(sums, [d.squares for d in self.dist]),
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reduce(sums, [d.samples for d in self.dist]),
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min([d.minval for d in self.dist]),
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max([d.maxval for d in self.dist]),
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reduce(sums, [d.under for d in self.dist]),
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reduce(sums, [d.vec for d in self.dist]),
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reduce(sums, [d.over for d in self.dist]),
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|
dist[0].min,
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dist[0].max,
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dist[0].bsize,
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dist[0].size)
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name = '%s.total' % (self.name)
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desc = self.desc
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disttotal.display(name, desc, self.flags, self.precision)
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def comparable(self, other):
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|
return self.name == other.name and \
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|
alltrue(map(lambda x, y : x.comparable(y),
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self.dist,
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other.dist))
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def __eq__(self, other):
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return alltrue(map(lambda x, y : x == y, self.dist, other.dist))
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def __isub__(self, other):
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if issequence(self.dist) and issequence(other.dist):
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for sd,od in zip(self.dist, other.dist):
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sd -= od
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else:
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self.dist -= other.dist
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return self
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def __iadd__(self, other):
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if issequence(self.dist) and issequence(other.dist):
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for sd,od in zip(self.dist, other.dist):
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sd += od
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else:
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self.dist += other.dist
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return self
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def __itruediv__(self, other):
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if not other:
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return self
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if issequence(self.dist):
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for dist in self.dist:
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dist /= other
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else:
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self.dist /= other
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return self
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class Vector2d(Statistic):
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def getValue(self):
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return 0.0
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|
def display(self):
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|
import display
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if not display.all and not (self.flags & flags.printable):
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|
return
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|
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|
|
d = display.VectorDisplay()
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d.__dict__.update(self.__dict__)
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|
if self.__dict__.has_key('ysubnames'):
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ysubnames = list(self.ysubnames)
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slack = self.x - len(ysubnames)
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|
|
if slack > 0:
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|
ysubnames.extend(['']*slack)
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else:
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ysubnames = range(self.x)
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|
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for x,sname in enumerate(ysubnames):
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o = x * self.y
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d.value = self.value[o:o+self.y]
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d.name = '%s[%s]' % (self.name, sname)
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d.display()
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|
|
if self.flags & flags.total:
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|
d.value = []
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|
|
for y in range(self.y):
|
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|
|
xtot = 0.0
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|
|
for x in range(self.x):
|
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|
|
xtot += self.value[y + x * self.x]
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|
d.value.append(xtot)
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|
|
d.name = self.name + '.total'
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|
d.display()
|
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|
|
|
|
|
|
def comparable(self, other):
|
|
|
|
return self.name == other.name and self.x == other.x and \
|
|
|
|
self.y == other.y
|
|
|
|
|
|
|
|
def __eq__(self, other):
|
|
|
|
return True
|
|
|
|
|
|
|
|
def __isub__(self, other):
|
|
|
|
return self
|
|
|
|
|
|
|
|
def __iadd__(self, other):
|
|
|
|
return self
|
|
|
|
|
|
|
|
def __itruediv__(self, other):
|
|
|
|
if not other:
|
|
|
|
return self
|
|
|
|
return self
|
|
|
|
|
|
|
|
def NewStat(data):
|
|
|
|
stat = None
|
|
|
|
if data.type == 'SCALAR':
|
|
|
|
stat = Scalar(data)
|
|
|
|
elif data.type == 'VECTOR':
|
|
|
|
stat = Vector(data)
|
|
|
|
elif data.type == 'DIST':
|
|
|
|
stat = Dist(data)
|
|
|
|
elif data.type == 'VECTORDIST':
|
|
|
|
stat = VectorDist(data)
|
|
|
|
elif data.type == 'VECTOR2D':
|
|
|
|
stat = Vector2d(data)
|
|
|
|
elif data.type == 'FORMULA':
|
|
|
|
stat = Formula(data)
|
|
|
|
|
|
|
|
return stat
|
|
|
|
|